Wireless charging apparatus and method

ABSTRACT

Methods and apparatus for wireless charging are provided. Transmission power transmitted from a wireless power transmitter is received at a power receiver of a wireless power receiver. A battery of the wireless power receiver is charged with the received transmission power. It is determined whether the battery is fully charged. A packet from a communication unit of the wireless power receiver is transmitted to the wireless power transmitter when the battery is fully charged. An auxiliary charge of the battery is performed by receiving strength-reduced transmission power from the wireless power transmitter.

PRIORITY

This application claims priority under 35 U.S.C. §119(a) to a Korean Patent Application filed in the Korean Intellectual Property Office on May 17, 2011 and assigned Serial No. 10-2011-0046316, and a Korean Patent Application filed in the Korean Intellectual Property Office on May 16, 2012 and assigned Serial No. 10-2012-0052123, the entire disclosures of which are incorporated herein by reference.

BACKGROUND OF THE INVENTION

1. Field of the Invention

The present invention relates generally to a wireless charging apparatus and method, 15 and more particularly, to a wireless charging apparatus and method that uses a wireless power receiver to wirelessly receives power from a wireless power transmitter and that charges a battery with the received power.

2. Description of the Related Art

With the continued improvements in the field of Information Technology (IT) and the increasing prevalence of a wide variety of portable electronic products, a variety of techniques have been developed that supply power for portable electronic products. Technology for supplying power typically used a power line in the past. However, wireless power transmission technology, which is capable of wirelessly supplying power, has recently been developed.

Wireless power transmission technology includes technology for delivering electrical energy in the form of electromagnetic waves, electromagnetic induction, or electromagnetic resonance, for example. Wireless power transmission technology makes it possible to supply power wirelessly anytime and anywhere, without the use of power lines, such as, electric wires. This wireless power transmission technology is a core technology for wirelessly charging electronic devices, supplying wireless power for and/or wirelessly charging electric cars, supplying wireless power to remote places, and supplying power to ubiquitous wireless sensors. Thus wireless power transmission technology has attracted the attention of the public as a promising technology to replace the existing schemes of supplying power for and/or charging electronic devices using electric wires.

For example, when wireless power transmission technology is used for a wireless charging apparatus, the wireless charging apparatus may include a wireless power transmitter for supplying power, and a wireless power receiver for receiving power and charging its battery with the received power. The wireless power transmitter may detect when an object is put on a source resonator by measuring a change in load or a change in resonant frequency from a wireless charging standby state. Upon detecting that the object is put on the source resonator, the wireless power transmitter determines whether the object is an object that may undergo wireless charging, or whether the object is just a metallic object, by performing an authentication process, such as, for example, exchanging an IDentifier (ID) with the object. If the authentication is successful, the wireless power transmitter starts negotiations on power transmission, thereby determining that the object put on the source resonator is a wireless rechargeable-charger (e.g., a wireless power receiver). Upon completion of the negotiations, the wireless power transmitter starts supplying wireless power for charging of the wireless power receiver so that the wireless power receiver may be charged. The wireless power transmitter determines whether the wireless power receiver has been fully charged, and stops its power transmission to the wireless power receiver if the wireless power receiver has been fully charged.

In the conventional wireless charging scheme described above, the wireless power transmitter stops its wireless power transmission when the wireless power receiver sends an End Power Transfer (EPT) packet to the wireless power transmitter. Therefore, the wireless power receiver may not perform an auxiliary charge. The term ‘auxiliary charge’, as used herein, may refer to charging that is conducted to supplement the power that has been self-discharged or consumed during use of the wireless power receiver with a full charge status displayed on UI.

Since the conventional wireless charging apparatus cannot perform an auxiliary charge, a User Interface (UI) screen may not display a full charge status with the transmission of wireless power interrupted.

Therefore, although the wireless charging apparatus has performed wireless charging for a long time, the user may misjudge that the wireless charging apparatus is out of order or malfunctions, because the user can not perceive the full charge status on User Interface (UI) screen.

When the battery power of the wireless power receiver drops below a predetermined amount of power due to discharge while in the fully charged state, the wireless power receiver performs recharging instead of the auxiliary charge. During recharging, the wireless power receiver displays a charging status on the UI. Thus, the user may not be able to determine whether the wireless power receiver is performing recharging after being fully charged, or the wireless power receiver is being continuously charged before being fully charged. For example, the user may misjudge that the wireless power receiver is being continuously charged without being fully charged, even though the wireless power receiver is actually being recharged after it was fully charged.

SUMMARY OF THE INVENTION

The present invention has been made to address at least the above problems and/or disadvantages and to provide at least the advantages described below. Accordingly, an aspect of the present invention provides a wireless charging apparatus and method for performing an auxiliary charge to display accurate full charge status information when a fully charged state is achieved during execution of wireless charging between a wireless power transmitter and a wireless power receiver.

Another aspect of the present invention provides a wireless charging apparatus and method for performing an auxiliary charge to display a full charge status in a UI screen consistently when a fully charged state is achieved during execution of wireless charging between a wireless power transmitter and a wireless power receiver.

In accordance with one aspect of the present invention, a wireless power receiver is provided that includes a power receiver for receiving transmission power from a wireless power transmitter. The wireless power receiver also includes a communication unit for transmitting a packet to the wireless power transmitter when a battery of the wireless charging apparatus is fully charged from the received transmission power. The packet includes a full charge status indicator. The wireless power receiver further includes a Power Management Integrated Circuit (PMIC) for charging the battery with the received transmission power, and, when the battery is fully charged, providing a full charge message and performing an auxiliary charge of the battery with strength-reduced transmission power. The wireless power receiver also includes a controller for controlling the communication unit to transmit the packet upon receiving the full charge message from the PMIC.

In accordance with another aspect of the present invention, a wireless charging method of a wireless power receiver is provided. Transmission power transmitted from a wireless power transmitter is received at a power receiver of the wireless power receiver. A battery of the wireless power receiver is charged with the received transmission power. It is determined whether the battery is fully charged. A packet from a communication unit of the wireless power receiver is transmitted to the wireless power transmitter when the battery is fully charged. An auxiliary charge of the battery is performed by receiving strength-reduced transmission power from the wireless power transmitter.

In accordance with an additional aspect of the present invention, a wireless power transmitter is provided. The wireless power transmitter includes a power converter for converting supplied power into wireless power and transmitting the wireless power. The wireless power transmitter also includes a communication unit for receiving a packet from a wireless power receiver. The packet includes a full charge status indicator for a battery of the wireless power receiver. The wireless power transmitter further includes a controller for reducing a strength of the wireless power transmitted from the power converter to a predetermined strength when the packet is received from the wireless power receiver. The wireless power transmitter also includes a display for displaying a fully charged status of the wireless power receiver.

In accordance with a further aspect of the present invention, a wireless charging method of a wireless power transmitter is provided. Supplied power is converted into wireless power at a power converter of the wireless power transmitter. The wireless power is transmitted from the power converter to a wireless power receiver. A packet is received from the wireless power receiver at a communication unit of the wireless power transmitter. The packet includes a full charge status indicator for a batter of the wireless power receiver. A strength of the wireless power transmitted from the power converter is reduced to a predetermined strength when the packet is received from the wireless power receiver. A fully charged status of the wireless power receiver is displayed on a display of the wireless power transmitter.

BRIEF DESCRIPTION OF THE DRAWINGS

The above and other aspects, features and advantages of the present invention will be more apparent from the following detailed description when taken in conjunction with the accompanying drawings, in which:

FIG. 1 is a flow diagram illustrating a wireless charging operation of a wireless charging apparatus that cannot perform an auxiliary charge;

FIG. 2 is a diagram illustrating a structure of a wireless charging apparatus, according to an embodiment of the present invention;

FIG. 3 is a flow diagram illustrating a wireless charging method, according to an embodiment of the present invention; and

FIG. 4 is a diagram illustrating a structure of a Charge Status (CS) packet, according to an embodiment of the present invention.

DETAILED DESCRIPTION OF EMBODIMENTS OF THE PRESENT INVENTION

Embodiments of the present invention are described in detail with reference to the accompanying drawings. The same or similar components may be designated by the same or similar reference numerals although they are illustrated in different drawings. Detailed descriptions of constructions or processes known in the art may be omitted to avoid obscuring the subject matter of the present invention.

Embodiments of the present invention provide a wireless charging apparatus and method for performing an auxiliary charge upon completion of wireless charging between a wireless power transmitter and a wireless power receiver. The wireless charging apparatus may be used for wirelessly charging electronic devices, supplying wireless power for and/or wirelessly charging electric cars, supplying wireless power to remote places, and supplying power to ubiquitous wireless sensors. The wireless charging apparatus may be applied to any devices that can perform wireless power transmission and perform charging by receiving wireless power.

A wireless charging operation of a wireless charging apparatus that cannot perform auxiliary charge is described in detail below. Thereafter, a wireless charging apparatus and method are described, which perform an auxiliary charge upon completion of wireless charging.

FIG. 1 is a flow diagram illustrating a wireless charging operation between a wireless power transmitter and a wireless power receiver, in which an auxiliary charge is not supported. Referring to FIG. 1, a wireless power transmitter 10 charges, or recharges, a battery in a wireless power receiver 50 by transmitting and receiving wireless power, in step 12.

In step 14, the wireless power receiver 50 determines whether it is in a fully charged state in which its battery is fully charged. If the wireless power receiver 50 is in the fully charged state, the wireless power receiver 50 displays the full charge status indicating that charging of the wireless power receiver 50 is complete. The full charge status is displayed on a UI screen implemented by a display module, such as, a Liquid Crystal Display (LCD), so that a user of the wireless power receiver may recognize the fully charged state, in step 16.

In step 18, the wireless power receiver 50 transmits an End Power Transfer (EPT) packet, having a Charge Complete message, to the wireless power transmitter 10 in accordance with the Wireless Power Consortium (WPC) 1.1 standard.

Upon receiving the EPT packet from the wireless power receiver 50, the wireless power transmitter 10 stops the transmission of wireless power, in step 20. While the wireless power receiver 50 receives no power, the fully charged battery is discharged little by little, and the full charge status will disappear from the UI screen.

In step 22, the wireless power receiver 50 determines whether the charged power is less than or equal to a predetermined power due to the above-described battery discharge. If the battery power is less than or equal to the predetermined power, the wireless power receiver 50 sends a charging request to the wireless power transmitter 10, in step 24.

In step 26, the wireless power transmitter 10 sends a response to the charging request to the wireless power receiver 50. In step 28, upon receiving the response to the charging request, the wireless power receiver 50 displays a charging status indicating that the wireless power receiver 50 is charging its battery. The charging status is displayed on the UI screen so that the user may recognize that the wireless power receiver 50 is charging its battery.

Thereafter, in step 30, the wireless power transmitter 10 charges the wireless power receiver 50 by transmitting and receiving wireless power. Steps 14 to 30 may be repeated until wireless power transmission/reception is impossible due to, for example, separating the wireless power receiver 50 from the wireless power transmitter 10.

In the wireless charging apparatus and method described above, the wireless power transmitter 10 stops the transmission of wireless power when the wireless power receiver 50 sends an EPT packet to the wireless power transmitter 10. Accordingly, the wireless power receiver 50 is prevented from performing an auxiliary charge.

Due to the inability of the wireless charging receiver 50 to perform the auxiliary charge, the wireless power receiver 50 doesn't displays a full charge status with its charging interrupted. Thus, if the wireless power receiver 50 doesn't display a full charge status despite the lapse of a full charge time, the user may consider that the wireless charging apparatus is out of order or malfunctions.

In addition, if the battery power is less than or equal to a predetermined power due to the discharge occurring in the fully charged state, the wireless power receiver 50 will perform recharging. The wireless power receiver 50 displays a charging status on the UI. The user may not be able to determine whether the wireless power receiver 50 is performing recharging after being fully charged, or the wireless power receiver 50 is being continuously charged before being fully charged. For example, the user may misjudge that the wireless power receiver 50 is being continuously charged without being fully charged, even though it is actually being recharged after it was fully charged.

Accordingly, an embodiment of the present invention provides a wireless charging apparatus and method capable of performing an auxiliary charge upon completion of the wireless charging between a wireless power transmitter and a wireless power receiver.

FIG. 2 is a diagram illustrating s structure of a wireless charging apparatus, according to an embodiment of the present invention.

Referring to FIG. 2, the wireless charging apparatus includes a wireless power transmitter 100 and a wireless power receiver 200.

The wireless power transmitter 100, which may be embodied as a charging pad, for example, includes a power supply 110, a first controller 120, a power converter 130, a first coil 135, a first communication unit 140, and a first display 150.

The power supply 110, which is a power source, supplies necessary power to the wireless power transmitter 100, and supplies Direct Current (DC) power for wireless power transmission.

The first controller 120, which controls the overall operation of the wireless power transmitter 100, generates various messages needed for wireless power transmission, sends the generated messages to the first communication unit 140, receives messages from the first communication unit 140, and performs control corresponding thereto. The first controller 120 calculates an amount of transmission power based on the information received from the wireless power receiver 200, and controls the power converter 130 to convert the transmission power. If a CS packet is received through the first communication unit 140 when a battery 240 in the wireless power receiver 200 is fully charged, the first controller 120 detects full charge status information included in the CS packet. The CS packet includes information indicating a battery charge level, and may have a value of 1 to 100. A value of 1 indicates that the battery 240 is almost completely uncharged, and a value of 100 indicates that the battery 240 is fully charged. In the latter case, where the battery 240 in the wireless power receiver 200 is fully charged, the wireless power receiver 200 may transmit a CS packet with a value of 100. Upon receiving a CS packet indicating the full charge of the battery 240 in the wireless power receiver 200, the first controller 120 controls the first display 150 to display full charge status information thereon, and controls the power converter 130 to reduce a strength of the wireless power to a predetermined strength.

The power converter 130 converts a DC voltage provided from the power supply 110 into transmission power so that the converted transmission power may be transmitted to the wireless power receiver 200 through resonance by the first coil 135. The first coil 135 resonates at the same frequency as that of a second coil 215 in the wireless power receiver 200 so that the transmission power may be transmitted to the wireless power receiver 200. If the wireless power receiver 200 is fully charged, the power converter 130 reduces the strength of the wireless power (or the strength of transmission power) under control of the first controller 120. The power converter 130 may reduce the strength of the transmission power so that a predetermined voltage (e.g., 5V) may be maintained, thereby also maintaining the power transmission.

The first communication unit 140 forwards a message (e.g., a CS packet) received from the wireless power receiver 200 to the first controller 120. The first communication unit 140 also sends a message from the wireless power transmitter 100 to the wireless power receiver 200 under control of the first controller 120.

The first display 150 may be a display module, such as, for example, a Light Emitting Diode (LED) or Liquid Crystal Display (LCD), which displays full charge status information indicating that the wireless power receiver 200 has been fully charged, under control of the first controller 120.

The wireless power receiver 200 charges its battery 240 with the power wirelessly provided from the wireless power transmitter 100, configured as described above. The wireless power receiver 200 may be embodied as a mobile terminal, for example, and includes the second coil 215, a power receiver 210, a second controller 220, a Power Management Integrated Circuit (PMIC, or power management chip) 230, the battery 240, a second communication unit 250, and a second display 260.

If the second coil 215, a resonant coil, is aligned with the first coil 135 in the wireless power transmitter 100, an induced current may occur in the second coil 215 due to changes in the magnetic field of the first coil 135. The second coil 215 resonates at the same frequency as that of the first coil 135 so that the wireless power may be received at the power receiver 210.

The power receiver 210 receives the transmission power from the wireless power transmitter 100 through the second coil 215, and forwards the received power to the PMIC 230.

The second controller 220, which controls the overall operation of the wireless power receiver 200, generates various messages needed for wireless power reception, sends the generated messages to the second communication unit 250, receives messages from the second communication unit 250, and performs control corresponding thereto. The second controller 220 controls the power receiver 210 to receive the power transmitted from the wireless power transmitter 100, and controls the PMIC 230 so that the received power may be charged in the battery 240. The second controller 220 may receive a full charge message from the PMIC 230 when the battery 240 is fully charged. Upon receiving the full charge message, the second controller 220 controls the second communication unit 250 to transmit a CS packet with a value of 100, which indicates that the battery 240 is fully charged. If the battery 240 is fully charged, the second controller 220 controls the second display 260 to display the full charge status thereon.

The PMIC 230, a power management chip, charges the battery 240 with the power that the power receiver 210 has received. The PMIC 230 monitors the current charge in the battery 240 and the voltage of the battery 240. If the battery 240 arrives at a full charge condition, the PMIC 230 performs an auxiliary charge while maintaining a jig-on voltage (a voltage fixedly provided to the PMIC 230 at 5V, and sends a full charge message to the second controller 220.

If the battery 240 is fully charged, the second communication unit 250 transmits a CS packet to the wireless power transmitter 100, receives a message from the wireless power transmitter 100, and forwards it to the second controller 220, under control of the second controller 220. The CS packet includes information indicating a charge level of the battery 240, and may have a value of 1 to 100, as described above.

The second display 260 may be embodied as a display module, such as, for example, an LED or an LCD, and displays full charge status information indicating that the battery 240 in the wireless power receiver 200 has been fully charged, under control of the second controller 220.

In the wireless charging apparatus described in the embodiment of the present invention above, if the battery 240 in the wireless power receiver 200 is fully charged, the wireless power receiver 200 sends a CS packet, instead of an EPT packet, to the wireless power transmitter 100. Accordingly, an auxiliary charge is performed so that the power transmitted from the wireless power transmitter 100 is continuously transmitted after being reduced, without being interrupted. This prevents the repeated charging and recharging of the battery 240.

FIG. 3 is a flow diagram illustrating a wireless charging method, according to an embodiment of the present invention.

Referring to FIG. 3, in step 302, the wireless power transmitter 100 and the wireless power receiver 200 charge the battery 240 in the wireless power receiver 200 by transmitting and receiving wireless power.

In step 304, the wireless power receiver 200 determines whether it is in a fully charged state, in which battery charging has been completed. If the wireless power receiver 200 is in the fully charged state, the wireless power receiver 200 displays a full charge status, indicating the completed charging of the wireless power receiver 200, on a UI screen of the second display 260, implemented by a display module such as LCD, in step 306.

In step 308, the wireless power receiver 200 transmits a CS packet to the wireless power transmitter 100. The CS packet includes information indicating a charge level of the battery 240, and may have a value of 1 to 100, as described above.

FIG. 4 is a diagram illustrating a structure of a CS packet, according to an embodiment of the present invention.

Referring to FIG. 4, for the CS packet, a CS packet type defined in the WPC 1.1 standard may be used. B0 represents one byte, which may include 8 bits of b7˜b0. In an 10 embodiment of the present invention, if the battery 240 is fully charged, a CS Value may be 0×63 to indicate a value of 100.

Upon receiving the CS packet from the wireless power receiver 200, the wireless power transmitter 100 displays full charge status information on the first display 150 in step 310. The wireless power transmitter 100 reduces transmission strength of the wireless power while maintaining the wireless power transmission without interruption, in step 312.

In step 314, the wireless power receiver 200 receives the reduced wireless power from the wireless power transmitter 100 and keeps a predetermined fixed voltage, thereby performing an auxiliary charge.

As is apparent from the foregoing description, the wireless charging apparatus and method of embodiments of the present invention enable an auxiliary charge upon completion of wireless charging between the wireless power transmitter and the wireless power receiver, making it possible for the user to identify the exact full charge status information in the fully charged state. By enabling the auxiliary charge upon completion of the wireless charging between the wireless power transmitter and the wireless power receiver, it is possible that even though the battery is recharged due to the discharge after it was fully charged, the user may not recognize this situation.

While the invention has been shown and described with reference to certain embodiments thereof, it will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the spirit and scope of the invention as defined by the appended claims and their equivalents. 

1. A wireless power receiver comprising: a power receiver for receiving transmission power from a wireless power transmitter; a communication unit for transmitting a packet to the wireless power transmitter when a battery of the wireless charging apparatus is fully charged from the received transmission power, wherein the packet comprises a full charge status indicator; a Power Management Integrated Circuit (PMIC) for charging the battery with the received transmission power, and, when the battery is fully charged, providing a full charge message and performing an auxiliary charge of the battery with strength-reduced transmission power; and a controller for controlling the communication unit to transmit the packet upon receiving the full charge message from the PMIC.
 2. The wireless power receiver of claim 1, wherein the packet is a Charge Status (CS) packet based on a Wireless Power Consortium (WPC) standard.
 3. The wireless power receiver of claim 2, wherein the CS packet comprises information indicating a charge level and has a value of 1 to 100, and wherein the CS packet has a value of 0×63 indicating a value of 100 when the battery is fully charged.
 4. The wireless power receiver of claim 1, further comprising a display for displaying a fully charged status of the battery when the battery is fully charged.
 5. A wireless charging method of a wireless power receiver comprising the steps of: receiving transmission power transmitted from a wireless power transmitter at a power receiver of the wireless power receiver; charging a battery of the wireless power receiver with the received transmission power; determining whether the battery is fully charged; transmitting a packet from a communication unit of the wireless power receiver to the wireless power transmitter when the battery is fully charged; and performing an auxiliary charge of the battery by receiving strength-reduced transmission power from the wireless power transmitter.
 6. The wireless charging method of claim 5, wherein the packet is a Charge Status (CS) packet based on a Wireless Power Consortium (WPC) standard.
 7. The wireless charging method of claim 6, wherein the CS packet comprises information indicating a charge level and has a value of 1 to 100, and wherein the CS packet has a value of 0×63 indicating a value of 100 when the battery is fully charged.
 8. The wireless charging method of claim 5, further comprising displaying a fully charged status of the battery on a display of the wireless receiving apparatus when the battery is fully charged.
 9. A wireless power transmitter comprising: a power converter for converting supplied power into wireless power and transmitting the wireless power; a communication unit for receiving a packet from a wireless power receiver, wherein the packet comprises a full charge status indicator for a battery of the wireless power receiver; a controller for reducing a strength of the wireless power transmitted from the power converter to a predetermined strength when the packet is received from the wireless power receiver; and a display for displaying a fully charged status of the wireless power receiver.
 10. The wireless power transmitter of claim 9, wherein the packet is a Charge Status (CS) packet based on a Wireless Power Consortium (WPC) standard.
 11. The wireless power transmitter of claim 10, wherein the CS packet comprises information indicating a charge level and has a value of 1 to 100, and wherein the CS packet has a value of 0×63 indicating a value of 100 when the battery is fully charged.
 12. A wireless charging method of a wireless power transmitter, comprising the steps of: converting supplied power into wireless power at a power converter of the wireless power transmitter; transmitting the wireless power from the power converter to a wireless power receiver; receiving a packet from the wireless power receiver at a communication unit of the wireless power transmitter, wherein the packet comprises a full charge status indicator for a batter of the wireless power receiver; reducing a strength of the wireless power transmitted from the power converter to a predetermined strength when the packet is received from the wireless power receiver; and displaying a fully charged status of the wireless power receiver on a display of the wireless power transmitter.
 13. The wireless power transmitter of claim 12, wherein the packet is a Charge Status (CS) packet based on a Wireless Power Consortium (WPC) standard.
 14. The wireless power transmitter of claim 13, wherein the CS packet comprises information indicating a charge level and has a value of 1 to 100, and wherein the CS packet has a value of 0×63 indicating a value of 100 when the battery is fully charged. 